module RegisterFile( input reset , input clk , input RegWrite , input [5 -1:0] Read_register1 , input [5 -1:0] Read_register2 , input [5 -1:0] Write_register , input [32 -1:0] Write_data , output [32 -1:0] Read_data1 , output [32 -1:0] Read_data2 ); // RF_data is an array of 32 32-bit registers // here RF_data[0] is not defined because RF_data[0] identically equal to 0 reg [31:0] RF_data[31:1]; // read data from RF_data as Read_data1 and Read_data2 assign Read_data1 = (Read_register1 == 5'b00000)? 32'h00000000: RF_data[Read_register1]; assign Read_data2 = (Read_register2 == 5'b00000)? 32'h00000000: RF_data[Read_register2]; integer i; // write Wrtie_data to RF_data at clock posedge always @(posedge reset or posedge clk) if (reset) for (i = 1; i < 32; i = i + 1) RF_data[i] <= 32'h00000000; else if (RegWrite && (Write_register != 5'b00000)) RF_data[Write_register] <= Write_data; endmodule